A glove includes a glove main body that is stretchable and made of fiber; a coating layer that comprises a synthetic resin or a rubber as a principal component and covers an external face of the glove main body; at least one impact-resistant pad that comprises a synthetic resin or a rubber as a principal component and is arranged to at least a part of a dorsal side portion of an external face side of the coating layer on the glove main body; and an adhesive layer that bonds the coating layer and the impact-resistant pad together, wherein an adhesive constituting the adhesive layer is a moisture-curing urethane-based hot-melt adhesive.

A spike resistant package containing a pouch, a first grouping of spike resistant textile layers, and a slip layer. Each of the textile layers within the first grouping of textile layers contains a plurality of interwoven yarns or fibers having a tenacity of about 5 or more grams per denier. At least a portion of the spike resistant textile layers comprise about 10 wt. % or less, based on the total weight of the spike resistant textile layer, of a coating comprising a plurality of particles having a diameter of about 20 m or less on at least one of the surfaces of the spike resistant textile layer. The slip layer has a stiffness of less than about 0.01 N-m and a static coefficient of friction (COF) between the slip layer and the second side of the first grouping of less than about 0.40. The pouch encapsulates the grouping of textile layers and slip layer. An article containing the package is also described.

A spike resistant package containing a pouch, a first grouping of spike resistant textile layers, and a slip layer. Each of the textile layers within the first grouping of textile layers contains a plurality of interwoven yarns or fibers having a tenacity of about 14 or more grams per denier. The slip layer has a thickness of less than about 0.1 mm, a stiffness of less than about 0.01 N-m, and a static coefficient of friction (COF) between the slip layer and the second side of the first grouping of less than about 0.40. The pouch essentially fully encapsulates the grouping of spike resistant textile layers and the slip layer and the slip layer and the inner surface of the pouch are in direct and intimate contact. An article containing the package is also described.

Disclosed is a garment comprising a hooded-coat and overalls designed for improved durability and comfort. The garment is waterproof throughout. The coat has an outer layer of Kevlar fabric in the abdominal region, the outer edges of the sleeves, and along the hem. The overalls have an outer layer of Kevlar fabric on the front of the legs and on the seat. The hood and coat sections each have light reflective stripes for greater visibility and safety. There are also built in knee pads, pockets, and openings for comfort, storage, and ventilation. The garment is particularly well suited for outdoor workers exposed to weather extremes and hard, abrasive contact with the environment.

Protective garments are provided. A protective garment includes a protective garment fabric. The fabric is formed from a plurality of layers. At least one layer of the plurality of layers is formed from a plurality of fibers adapted to entangle with a moving blade of a tool upon contact between the moving blade and the fabric. At least one layer of the fabric includes metal fibers. The garment includes a garment sensing device including a sensor configured to detect when one or more metal fibers are cut, and a signal generator configured to send a signal to the tool to disable movement of the moving blade.

A three-dimensional, 3D, knitted fabric is knitted by a double-bed weft-knitting machine. The knitted fabric comprises a top layer, a bottom layer, and an intermediate layer, wherein the top layer and the bottom layer are joined together by cross-yarns constituting the intermediate layer, and wherein at least the top layer comprises two-folded cut-resistant yarns.

There is provided an open-palmed glove. The glove includes a first layer of material. The glove includes a second layer of material coupled to and extending about peripheral portions of the first layer of the material. There is also provided an open-palmed glove comprising a single material in the form of one of leather, leather suede, synthetic leather, and microfiber, with a lining coupled to said single material and forming an aperture aligned with the back of the glove. There is yet further provided use of an open-palmed glove for rock climbing. The glove consists of a single material on the back thereof. The single material touches both the hand and a rock that is being climbed. There is yet additionally provided a kit comprising a plurality of pairs of rock-climbing gloves of different sizes, each having its own color which corresponds to a color of a camming device.

The invention relates to a multilayer composite comprising a layer of leather in contact with at least one monolayer comprising parallel aligned fibers and a matrix material. The composite may further comprise film layer(s) that may be breathable and/or waterproof. The multilayer composite material is suitable for use in clothing and outdoor gear and apparel.

A safety garment ensemble for emergency personnel includes a vest that is configured to position on a torso of a user so that the vest is coupled to the user. The vest comprises ballistic textiles and fire resistant textiles so that the vest is both bullet-resistant and fire-retardant. A first power module, a microprocessor, a plurality of microphones, a plurality of cameras, and a data storage module are coupled to the vest. The microprocessor is operationally coupled to the first power module. The microphones, the cameras, and the data storage module are operationally coupled to the microprocessor. The microphones and the camera are configured to capture audio recordings and video recordings, respectively, of events in an area proximate to the vest. The data storage module is positioned to receive and store the audio and visual recordings.

A textile assembly suitable for integration into a wearable article includes an outer layer having a distributed pattern of penetrations configured to facilitate load carriage, and a protective layer having filament and staple yarns, at least 25% of which have an average tenacity of greater than 15 gpd. The penetrations can be approximately 1 inch long and 0.25 inches wide, and can have a tear resistance when loaded with a 1-inch wide webbing strap of greater than 50 lbf. The textile assembly can have less than 2% consumption per ASTM D6413. In embodiments, at least one layer of polymeric or elastomeric coating substantially encapsulates the yarns of the protective layer. Embodiments provide greater than 600 fps 2 gr RCC protection as measured using Mil Std 662F. The textile assembly can be sewn into a garment, which can be a pant, a shirt, or a jacket.